Rotating snap connection assembly

ABSTRACT

A connector providing a rotating snap connection for connecting tubes, hoses and/or other conduits where the rotatable portion of the connector snap fits with the remaining portion of the connector is described. A first connector can include a body defining a first internal passage, a connecting end defining a second internal passage, and a connecting mechanism rotatably connecting the connecting end to the body such that the second internal passage of the connecting end is fluidly connected with the first internal passage. A second connector can include a first body, a second body rotatably connected to the first body via a connecting structure, and a connecting structure.

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No.15/405,575, filed Jan. 13, 2017, incorporated herein by reference in inits entirety, which application claims the benefit of U.S. ProvisionalPatent App. No. 62/280,476, filed Jan. 19, 2016, the entire disclosuresof both of which are hereby incorporated by reference as if set forth intheir entirety herein.

TECHNICAL FIELD

The present disclosure relates generally to connectors for tubes orhoses. More particularly, the present disclosure relates to a connectorassembly having multiple connecting ends where at least one end isrotatable with respect to the other connecting ends and the rotatableend is connected by a snap fit connection.

BACKGROUND

Connectors are used for making connections with tubes, hoses and/orconduits. Due to the variety of uses and settings where conduits may beused, it may be desirable to adapt the connector to connect variousconduits coming to the connector at various orientations.

Accordingly, it is desirable to provide an apparatus that can be movedor adjusted in order to connect to various conduits attaching to theconnector at various orientations.

SUMMARY

A connector includes a body defining a first internal passage, aconnecting end defining a second internal passage, and a connectingmechanism rotatably connecting the connecting end to the body such thatthe second internal passage of the connecting end is fluidly connectedwith the first internal passage. The connecting mechanism includes aretention groove defined by either the body or the connecting end, aretention projection defined by the other of the body or the connectingend that does not define the retention groove, and a sealing barblocated on either the body or the connecting end and configured to beembedded in the other of the body and connecting end on which thesealing barb is not located. The retention projection fits within theretention groove to connect the connecting end with the body.

Implementations may include one or more of the following features. Thebody and the connecting end can be made of a resilient material and theretention projection can be inserted into the retention groove by a snapfit. The retention groove can be located on the connecting end and theretention projection can be located on the body. The sealing barb can belocated on the connecting end.

The retention groove can be annular in shape and the retentionprojection can have an interrupted annulus shape. The connector canfurther include a stop surface located on one of the body and connectingend. The stop surface can be dimensioned to stop the body and theconnecting end from moving closer with respect to each other when theretention projection is located in the retention groove.

The connecting end can include a second barb that is configured toattach to a hose. The connecting end can be configured to rotate 360degrees with respect to the body. The sealing barb can be dimensioned sothat the first internal passage of the body and the second internalpassage are fluidly sealed by the sealing barb embedded in the other ofthe body and connecting end on which the sealing barb is not locatedwithout use of an elastomeric seal. The sealing barb, when embedded inthe other of the body and connecting end on which the sealing barb isnot located, can be proximate to an undercut or chamfered surfacelocated on the other of the body and connecting end on which the sealingbarb is not located. The sealing barb can define at least a portion ofthe retention groove. The body can include a second connecting end,where the connecting end and the second connecting end can define a barbconfigured to retain a hose.

In another aspect, a connector includes a first body, a second bodyrotatably connected to the first body via a connecting structure, and aconnecting structure. The connecting structure includes a lockingstructure located on both the first and second bodies and configured tolock the first and second bodies together in a snap fit configuration, afirst stop surface located on the first body, a second stop surfacelocated on the second body, and a sealing barb located on the first bodyand embedded into corresponding geometry on the second body.

Implementations may include one or more of the following features. Theconnecting structure can include a retaining groove in one of the firstand second bodies and a retaining projection located in the other of thefirst and second bodies not containing the retaining groove. The firstbody can be fastened to the second body via the retaining projectioninterlocking into the retaining groove. The retaining groove can begenerally annular in shape and the retaining projection can bedimensioned to fit in the retaining groove.

The retaining projection can have an interrupted annulus shape. Thefirst and second bodies can be made of resilient material so that thefirst and second bodies flex as the retaining projection is slid towardthe retaining groove. Once the retaining projection is moved to theretaining groove, the retaining projection can snap into place into theretaining groove. The sealing barb and corresponding geometry on thesecond body can be dimensioned so that when the sealing barb is embeddedinto the corresponding geometry on the second body, the first and secondbodies can be fluidly sealed with respect to each other without use ofan elastomeric seal.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view illustrating a connector according to oneembodiment.

FIG. 2 is a cross-sectional of the connector shown in FIG. 1.

FIG. 3 is a partial, close-up, cross-sectional view of the connectorshown in FIG. 2.

FIG. 4 is a partial, cross-sectional view of another connector inaccordance with another embodiment.

FIG. 5 is a cross-sectional view of another connector in accordance withanother embodiment.

FIG. 6 is a perspective view of another connector in accordance withanother embodiment.

FIG. 7 is a cross-sectional view of the connector shown in FIG. 6.

FIG. 8 is a cross-sectional view of a portion of a connector inaccordance with yet another embodiment.

FIG. 9 is a portion of a connector used in conjunction with a portion ofthe connector shown in FIG. 8.

FIG. 10 is an enlarged, partial, cross-sectional view of the connectorportions shown in FIGS. 8 and 9 in a connecting attitude.

FIG. 11 is a cross-sectional view of a connector in accordance with anembodiment.

DETAILED DESCRIPTION

Various embodiments will now be described with reference to the drawingfigures, in which like reference numerals refer to like partsthroughout. An embodiment in accordance with the present disclosureprovides a rotating snap connection for connecting tubes, hoses and/orother conduits where the rotatable portion of the connector snap fitswith the remaining portion of the connector. The terms “hose” or “tube”should not be viewed as limiting but should be understood to mean anygeneric type of mechanical conduit.

FIGS. 1 and 2 are perspective and cross-sectional views, respectively,of a connector 20 in accordance with an embodiment of the presentdisclosure. In the cross-sectional view shown in FIG. 2, a rotatingportion of the connector 20 has been rotated to be in alignment with theremaining portion of the connector 20.

The connector 20 includes a body 22. The body 22 defines a firstinterior passageway 24 which is configured to allow fluid, whether aliquid or gas, to flow through the body 22. The connector 20 alsoincludes a first connecting end 26, a second connecting end 28, and athird connecting end 30. One of ordinary skill the art will understandthat connectors in accordance with the present disclosure may includemore or fewer connecting ends then shown and described herein.

Each connecting end 26, 28, 30, may include a chamfered or curvedsurface 32 in order to facilitate the connecting ends 26, 28, 30attaching to a tube or hose. The connecting ends 26, 28, 30, may alsoinclude a first inclined surface 34 and a barb 36. The barb 36 may beuseful in retaining and/or sealing a tube or hose to the connector 20.The connecting ends 26, 28, 30, may also include a second inclinedsurface 38 that may allow the tube or hose, when connected to theconnector 20, to be friction fit onto the connector 20. In someinstances, once the second inclined surface 38 grows to be as wide asthe tube or hose moving toward the end, 26, 28, or 30, the tube or hosewill no longer fit onto the connector 20 and may stop. In otherinstances, a stop surface 39 may be provided in order to provide a hardstop for a tube or hose being connected to the connector 20. A grippingsurface 40 may be provided around a circumference of the stop surface 39to allow a user to grip the connector 20. In some embodiments, it may beuseful to twist the connector 20 when attaching or detaching a tube orhose to the connecting ends 26, 28, 30.

In some embodiments, the connecting ends 26, 28 30 may include interiorpassageways 24 or 42. In the embodiment shown in FIGS. 1 and 2, a thirdconnecting end 30 is rotatable with respect to the body 22 of theconnector 20. The rotatable end 30 rotates with respect to the body 22in the direction shown by arrow A in FIG. 1. The third connecting end 30includes a second interior passageway 42 that is fluidly connected tothe first interior passageway 24 via a merging area 44. As a result, allof the connecting ends 26, 28, 30 have interior passageways 24 and 42that are fluidly connected.

The third connecting end 30 attaches to the body 22 at a connecting area46. FIG. 3 is a partially enlarged, cross-sectional view of theconnecting area 46 of the connector 20. With reference to FIG. 3, theconnecting area 46 includes a retention groove 48 defined in the thirdconnecting end 30. A retention projection 50 is defined by the body 22.The retention projection 50 fits within the retention groove 48 in orderto lock the third connecting end 30 to the body 22. It will beappreciated that the third connecting end 30 is generally circular incross-section at the connecting area 46 as shown in FIG. 1. As such, thethird connecting end 30 may be able to rotate 360° with respect to thebody 22 while allowing the retention projection 50 to remain in theretention groove 48.

It should also be appreciated that both the retention groove 48 and theretention projection 50 are generally annular in shape. A side wall 52of the retention groove 48 provides a stop surface and abuts a side wall54 of the retention projection 50. In this manner, the retentionprojection 50 is trapped within the retention groove 48 thereby lockingthe third connecting end 30 to the body 22 while providing fluidcommunication between the second interior passageway 42 of the thirdconnecting end 30 with the first interior passageway 24 of the body 22.

A sealing barb 56 is located on the third connecting end 30 and isembedded in the corresponding structure in the body 22. The body 22 hascorresponding structure having corresponding geometry to receive thesealing barb 56. The shape of the corresponding geometry may be simply astraight wall tube to receive the sealing barb 56. Alternatively, thecorresponding geometry may include other preformed shapes to receive thesealing barb 56. The corresponding structure in the body 22 is compliantin receiving the sealing barb 56 to form a seal between the sealing barb56 and the corresponding structure of the body 22. The fact that a sharpportion of the sealing barb 56 is embedded into the body 22 provides afluid tight seal between the third connecting end 30 and the body 22.The sealing barb 56 obviates the need for any other types of seals suchas elastomeric seals. However, in some embodiments, elastomeric sealsmay also be used but they may not be required in many embodiments. Itwill be appreciated that the sealing barb 56 is also annular in shapeand may engage the body 22 in an annular shaped contact area.

FIG. 4 is a partial, cross-sectional view of an alternate connector 20.The alternate connector 20 may include a rotating end 57 which includesa connecting nozzle 58 configured to receive a tube or hose. Theconnecting nozzle 58 may be located in a connecting hole 60 in whichconnecting threads 62 may be located. The connecting threads 62 maythreadably engage the connector 20 with a tube or hose connected to thealternative connector fitting 71.

The rotating end 57 connects to the body 22 in a manner similarlydescribed above with respect to FIGS. 1-3. The second interiorpassageway 42 is fluidly connected to a first interior passageway 24 inthe body 22 via a merge area 44. The connecting area 46 includes aretention groove 48 located in the rotating end 57. A retentionprojection 50 is located in the rotating end 57. A side wall 52 of theretention groove 48 interacts with the side wall 54 of the retentionprojection 50 in order to retain the retention projection 50 into theretention groove 48. In this manner, the rotating end 57 is mechanicallyfastened to the body 22 in a manner that allows the rotating end 57 torotate axially with respect to the body 22.

In both embodiments shown in FIGS. 1-3, and FIG. 4, the sealing barb 56not only provides a sealing function to seal the first interiorpassageway 24 with the second interior passageway 42 by embedding intothe body 22, but the sealing barb 56 may also define, at least in part,the retention groove 48 and help to retain the retention projection 50within the retention groove 48. Interference area 64 illustrates aportion of the sealing barb 56 embedded into the body 22 in order toprovide a sealing function. The interference area 64 is referred to asan interference area because that is where the sealing barb 56 and thebody 22 are connected and/or sealed by an interference fit. As thesealing barb 56 embeds into the body 22, it also mechanically attachesthe body 22 with the connecting end 30 or 57.

An undercut, chamfer, or inclined area 66 may be provided on theretention projection 50 as shown in both FIGS. 3 and 4. This undercut,chamfer, or inclined area 66 may be useful during assembly and/ordisassembly of the connector 20.

The body 22 and third end 30 or rotating end 57 may be made of aresilient material that will flex such as, for example plastic. In someembodiments, the connector 20 may be made of polymers. For example, theconnector 20 may be made of any of the following: polypropylene,acrylonitrile butadiene styrene (ABS), nylon, polyethylene,polycarbonate, high-density polyethylene (HDPE), or acteal. It should beunderstood that the foregoing list is meant to be examples only and isin no way limiting of suitable materials that may be used for theconnector 20 in various embodiments.

When the third connecting end 30 or rotating end 57 is being insertedinto the body 22, both the body 22 and the connecting end 30 or 57 mayflex until the retention projection 50 snaps into the retention groove48. About at the position where the retention projection 50 snaps intothe retention groove 48, the sealing barb 56 will embed itself into thebody 22. In this position, the side wall 52 of the retention groove 48will act as a positive stop and prevent the retention projection 50 frommoving further into the body 22.

While various features such as the retention groove 48 and sealing barb56 have been attributed to either the third end 30 or the rotating end57 and the retention projection 50 and corresponding structure of thebody 22 for receiving the sealing barb 56 have been attributed tospecifically the body 22, it will be appreciated that these features maybe reversed. Optionally, the body 22 may define a retention groove 48and a retention projection 50 and the sealing barb 56 may be found onthe body 22. A mere reversal or rearrangement of position of variousparts will still fall within what is contemplated by the presentdisclosure.

FIG. 5 is a cross-sectional view of another connector 20 in accordanceof the present disclosure. The connector 20 shown in FIG. 5 includes afirst connecting end 26, a second connecting end 28, a third connectingend 30, and a fourth connecting end 68. Interior passageways 24, 42, and70 are all fluidly connected. The third connecting end 30 and fourthconnecting end 68 are integral with each other and both the rotate andare connected to the body 22 at the connecting area 46. The connectingarea 46 has connecting and sealing structure similar to that describedabove with respect to FIGS. 1-3 and 4.

FIGS. 6 through 10 illustrate another embodiment in accordance with thecurrent disclosure. FIGS. 6 and 7 are perspective and cross-sectionalviews of an alternative type of connector 20. The connector 20 includesa body 22 having a first interior passageway 24, a first connecting end26, a second connecting end 28, a third connecting end 30, and a fourthconnecting end 68 attached to the body 22. The second and thirdconnecting ends 28 and 30 are attached to the body 22 at a connectingarea 46. As shown in FIG. 7, alternative connecting fittings 71 arepresent on both the second connecting end 28 and third connecting end 30and defined interior passageways 72 and 74. An alternative bodyconnection 73 is part of the body 22 and used to connect the alternativeconnection fittings 71 to the body 22.

FIG. 8 is a cross-sectional view of the alternative connection fittingsof FIGS. 6 and 7. The alternative connection fittings 71 define theinterior passageway 72 or 74 and defies a retention projection 50. Aflared area 76 is also defined and dimensioned to receive thealternative body connection shown in FIGS. 7, 9, and 10.

FIG. 9 illustrates the alternative body connection 73 portion of thebody 22 portion of the connector 20. The alternative body connection 73includes a chamfer, inclined, or curved surface 32, a first inclinedsurface 34 and retaining barb 36. A second inclined surface 38 is alsopresent on the alternative body connection 73. A stop surface 80 is alsolocated on the alternative body connection 73.

FIG. 10 illustrates the alternative connecting fittings 71 mounted ontothe alternative body connection 73 of the body 22. Because thealternative connection fittings 71 are used on both of the secondconnecting end 28 and third connecting end 30, only one alternativeconnecting fitting 71 and alternative body connection 73 will bedescribed in detail because whether they are mounted on the secondconnecting end 28 or third connecting end 30 they are the same. Theinterior passageways 72, 74 provide fluid communication to the firstinterior passageway 24 in the body 22.

The alternative connecting fitting 71 fits over the alternative bodyconnection 73 by the flared area 76 sliding over the cone-shaped portion75 of the alternative body connection 73. The cone-shaped portion 75 mayflex inwardly and the flared area 76 may flex outwardly as thealternative connection fittings 71 is moving toward the alternative bodyconnection 73. The alternative connecting fitting 71 moves towards thealternative body connection 73 until the connecting end fittings stopsurface 82 meets the stop surface 80 on the body 22. The connector 20 isdimensioned and sized so that when the connecting end fittings stopsurface 82 meets the stop surface 80, the retention projection 50 of thealternative connecting fitting 71 fits into the retention groove 48 ofthe alternative body connection 73. The cone-shaped portion 75 may snapoutwardly and/or the flared area 76 may snap inwardly as the retentionprojection 50 enters the retention groove 48. The side wall 54 of theretention projection 50 will meet with the side wall 52 of the retentiongroove 48. The sealing barb 56 will extend outwardly and embed itselfinto the alternative connection fitting 71 at the interference area 64.In the interference area 64 the sealing barb 56 will expand into theside wall 84 of the alternative connection fitting 71 thereby creating afluid tight seal between the interior passageways 72, 74 of thealternative connection fitting 71 and the first interior passageway 24of the body 22. The alternative connection fitting 71 is free to rotateaxially about the alternative body connection 73.

In some embodiments, the retention projection 50 may not be contiguousbut rather may be in an interrupted shape or, in other words, the shapeof an interrupted annulus. FIG. 11 is a cross-sectional view of thealternative connection fitting 71 showing the retention projection 50having interruptions 86. In some embodiments, the interruptions may havevarious dimensions X. For example, in some embodiments, the distance Xmay be 0.02 of an inch. In other embodiments other dimensions for X maybe used. It will be appreciated that even though the retentionprojection 50 has interruptions 86, this in no way prohibits rotation ofthe retention projection 50 within the retention groove 48.

While the structure described in the connecting area 46 has beendescribed as part of a connector 20, it will be appreciated that thestructure forming the connecting area 46 in order to allow a structureto be rotatably connected to a body is not limited to connectors but maybe used in a variety of settings in accordance with the presentdisclosure.

The many features and advantages of the connector are apparent from thedetailed description, and thus, it is intended by the appended claims tocover all such features and advantages of the connector. Further, sincenumerous modifications and variations will readily occur to thoseskilled in the art, it is not desired to limit the connector to theexact construction and operation illustrated and described, andaccordingly, all suitable modifications and equivalents may be resortedto, falling within the scope of the connector.

What is claimed is:
 1. A connecting fitting configured to connect to abody comprising: a sidewall; an interior passageway; and a retentionprojection configured to fit into a retention groove of a bodyconnection of the body, wherein the interior passageway is configured toprovide fluid communication to an interior passageway in the body. 2.The connecting fitting configured to connect to a body according toclaim 1 wherein the retention projection comprises a side wall; andwherein the side wall of the retention projection is configured to meetwith a side wall of the retention groove of the body connection of thebody.
 3. The connecting fitting configured to connect to a bodyaccording to claim 1 further comprising: an interference area configuredto receive a sealing barb of the body connection of the body.
 4. Theconnecting fitting configured to connect to a body according to claim 3wherein the interference area is configured to allow the sealing barb toextend outwardly and embed into the interference area.
 5. The connectingfitting configured to connect to a body according to claim 3 wherein theinterference area is configured to allow the sealing barb to expand intothe sidewall thereby creating a fluid tight seal between the interiorpassageway and the interior passageway of the body.
 6. The connectingfitting configured to connect to a body according to claim 1 furthercomprising: a flared area configured and dimensioned to receive the bodyconnection of the body.
 7. The connecting fitting configured to connectto a body according to claim 6 wherein the flared area is configured toslide over a cone-shaped portion of the body connection of the body. 8.The connecting fitting configured to connect to a body according toclaim 6 wherein the flared area is configured to flex outwardly as theconnection fitting is moved toward the body connection.
 9. Theconnecting fitting configured to connect to a body according to claim 6wherein the flared area is configured to flex outwardly as theconnection fitting is moved toward the body connection while acone-shaped portion of the body connection flexes inwardly.
 10. Theconnecting fitting configured to connect to a body according to claim 6wherein the flared area is configured to snap inwardly as the retentionprojection enters the retention groove of the body connection of thebody.
 11. The connecting fitting configured to connect to a bodyaccording to claim 1 wherein the connecting fitting is configured to fitover the body connection.
 12. The connecting fitting configured toconnect to a body according to claim 1 wherein the interior passagewaydefines the retention projection.
 13. The connecting fitting configuredto connect to a body according to claim 1 further comprising: aconnecting end fitting stop surface structured and arranged to meet astop surface on the body.
 14. The connecting fitting configured toconnect to a body according to claim 1 wherein the connecting fitting isfurther configured to connect with a tube or hose.
 15. A connectingfitting configured to connect to a body comprising: a sidewall; aninterior passageway; a retention projection configured to fit into aretention groove of a body connection of the body; and an interferencearea configured to receive a sealing barb of the body connection of thebody, wherein the interior passageway is configured to provide fluidcommunication to an interior passageway in the body.
 16. The connectingfitting configured to connect to a body according to claim 15 whereinthe retention projection comprises a side wall; and wherein the sidewall of the retention projection is configured to meet with a side wallof the retention groove of the body connection of the body.
 17. Theconnecting fitting configured to connect to a body according to claim 15wherein the interference area is configured to allow the sealing barb toextend outwardly and embed into the interference area.
 18. Theconnecting fitting configured to connect to a body according to claim 15wherein the interference area is configured to allow the sealing barb toexpand into the sidewall thereby creating a fluid tight seal between theinterior passageway and the interior passageway of the body.
 19. Theconnecting fitting configured to connect to a body according to claim 15further comprising: a flared area configured and dimensioned to receivethe body connection of the body.
 20. The connecting fitting configuredto connect to a body according to claim 19 wherein the flared area isconfigured to slide over a cone-shaped portion of the body connection ofthe body.
 21. The connecting fitting configured to connect to a bodyaccording to claim 19 wherein the flared area is configured to flexoutwardly as the connection fitting is moved toward the body connection.22. The connecting fitting configured to connect to a body according toclaim 19 wherein the flared area is configured to flex outwardly as theconnection fitting is moved toward the body connection while acone-shaped portion of the body connection flexes inwardly.
 23. Theconnecting fitting configured to connect to a body according to claim 19wherein the flared area is configured to snap inwardly as the retentionprojection enters the retention groove of the body connection of thebody.
 24. The connecting fitting configured to connect to a bodyaccording to claim 15 wherein the connecting fitting is furtherconfigured to connect with a tube or hose.